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GI embryology 2

Fareed Khdair , MD Assistant Professor Chief, Section of Pediatric Gastroenterology, Hepatology, and Nutrition University of Jordan – School of Medicine. GI embryology 2. Outline. Clinical. Lecture one : Gut formation Foregut: esophagus, stomach, Duodenum

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GI embryology 2

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  1. Fareed Khdair , MD Assistant Professor Chief, Section of Pediatric Gastroenterology, Hepatology, and Nutrition University of Jordan – School of Medicine GI embryology 2

  2. Outline Clinical • Lecture one : • Gut formation • Foregut: • esophagus, stomach, Duodenum • Liver , gall bladder and pancreas • Spleen • Lecture Two ( next week ): • Mid gut : duodenum . Jejuno-ileum, colon • Hind gut : distal transverse colon – anal canal

  3. GI embryology

  4. References • Lecture slides • Langman medical embryology • Chap 15

  5. Case 1 vomiting

  6. Normal malrotation

  7. Mid Gut

  8. Mid gut • begins distal to the entrance of the bile duct into the duodenum • terminates:junction of the proximal 2/3 of the transverse colon with the distal third.

  9. Midgut • communicates with the yolk sac by way of the vitelline duct or yolk stalk • supplied by the superior mesenteric artery • Development characterized by rapid elongation :primary intestinal loop

  10. Growth phases of mid gut • Herniation – physiologic 6th week • Rotation 90 degrees • Retraction 10 thweek • Further rotation 180 degrees

  11. Mid gut growth • The cephalic limb of the loop develops into: the distal part of the duodenum, the jejunum, and part of the ileum. • The caudal limb becomes the lower portion of the ileum, the cecum, the appendix, the ascending colon, and the proximal two-thirds of the transverse colon.

  12. Mid gut • WAPWON.COM_Embryological_Rotation_of_the_Midgut.mp4

  13. Physiological Herniation • At 6 Weeks Due to : • rapid growth of the liver. • Rapid growth of intestinal loops • the abdominal cavity becomes too small they enter the extraembryonic cavity in the umbilical cord

  14. ROTATION OF THE MIDGUT • rotates around axis of superior mesenteric artery • Counterclockwise • approximately 270◦ when complete Rotation occurs : • during herniation (about 90◦) • during return of the intestinal loops into the abdominal cavity (remaining 180◦)

  15. during mid gut rotation Small intestine : • elongation • jejunum and ileum :coiledloops large intestine : • Elongation • No coiling

  16. Retraction • During the 10th week, herniated loops return to the abdominal cavity. Due to : • reduced growth of the liver • and expansion of the abdominal cavity • The proximal portion of the jejunum, the first part to reenter the abdominal cavity, comes to lie on the left side • The later returning loops gradually settle more and more to the right.

  17. Retraction • The cecal bud is the last part of the gut to reenter the abdominal cavity. • Temporarily it lies in the right upper quadrant

  18. Appendix embryology • Forms a s as a narrow diverticulum form cecal bud • its final position frequently is posterior to the cecum or colon. • These positions of the appendix are called retrocecal or retrocolic

  19. Mesenteries of intestinal loops

  20. Dorsal and ventral mesentry

  21. Mesentery proper • The mesentery of the primary intestinal loop. • changes with rotation and coiling of the bowel. 1- caudal limb of the loop moves to the right side of the abdominal cavity. 2- the dorsal mesentery twists around the origin of the superior mesenteric artery

  22. Cross sectional view

  23. Retro Vs intraperitoneal • After fusion of these layers: • the ascending and descending colons are permanently anchored in a retroperitoneal position • The appendix, lower end of the cecum, and sigmoid colon: retain their free mesenteries ( intraperitoneal structures)

  24. Sagittal view of gut mesenteries

  25. transverse mesocolon • It fuses with the posterior wall of the greater omentum but maintains its mobility. • Transverse colon: intraperitoneal organ

  26. Small bowel mesentery • The mesentery of the jejuno-ilealloops is at first continuous with that of the ascending colon • Then obtains new attachment line : small bowel becomes intraperitoneal

  27. Congenital anomalies of mid gut

  28. Malrotation • Anti clock wise roation for 90◦ only. • When this occurs, the colon and cecum are the first portions of the gut to return from the umbilical cord, and they settle on the left side of the abdominal cavity • resulting in left-sided colon. • Results in recurrent vomiting and abdominal pain • twisting of the intestine (volvulus) compromise s the blood supply.

  29. Reversed rotation • primary loop rotates 90◦ clockwise • In this abnormality the transverse colon passes behind the duodenum and lies behind the superior mesenteric artery. • Symptoms usually occur early in life

  30. Gut Atresias and Stenoses • Atresias and stenoses may occur anywhere along the intestine • Most occur in the duodenum, fewest occur in the colon, and equal numbers occur in the jejunum and ileum (1/1500 births). • Atresias in the upper duodenum are probably due to a lack of recanalization

  31. Body Wall Defects Omphalocele Gastroschisis

  32. Omphalocele • herniation of abdominal viscera through an enlarged umbilical ring. • The viscera are covered by amnion. • Due to failure of the bowel to retract • occurs in 2.5/10,000 births • associated with a high rate of mortality (25%) • Associated with severe malformations, such as cardiac anomalies (50%) and neural tube defects (40%). • Approximately half of live-born infants with omphalocelehave chromosomal abnormalities.

  33. Gastroschisis • is a herniation of abdominal contents through the body wall directly into the amniotic cavity. • It occurs lateral to the umbilicus usually on the right • Not covered with amnion • Not associated with other anomalies

  34. Vitelline duct abnormalities

  35. Hind Gut

  36. Case 1 No meconium

  37. Imperforated anus

  38. Hindgut • gives : • the distal third of the transverse colon, • the descending colon, • the sigmoid, • the rectum, • and the upper part of the anal canal. • The endoderm of the hindgut also forms the internal lining of the bladderand urethra • ( from Allantois)

  39. Definitions • The cloaca : • an endoderm-lined cavity covered at its ventral boundary by surface ectoderm. • Cloaca membrane: • Membrane between hindgut endoderm, and ectoderm • Gives rise to anal canal and urogenital sinus openings • Allantois : • ventral extension of the hind gut • Gives the uro-genital sinus • urorectal septum A layer of mesoderm,, separates the region between the allantois and hindgut.

  40. Hind gut embryology • The terminal portion of the hindgut enters into the posterior region of the cloaca : the primitive anorectal canal • the allantois enters into the anterior portion :the primitive urogenital sinus

  41. Hind gut embryology • end of the 7th week: • cloacal membrane ruptures: • Dorsal : anal opening for the hindgut • ventral opening for the urogenital sinus. • The perineal body : the tip of the urorectal septum forms • proliferation of ectoderm closes the caudal region of the anal canal. • During the 9thweek, this region recanalizes

  42. Embryology of anal canal • distal part : • originates in the ectoderm. • Stratified squamaous epithelium • supplied by the inferior rectal arteries ( branches of the internal pudendal arteries) • Proximal part : • Endoderm • Coloumnar epithelium • Supplied by superior rectal arteries ( br. Inferior mesenteric artery ) • Junction : pectinate line

  43. Hind gut abnormalities

  44. Summary • WAPWON.COM_10-_The_development_of_the_gastrointestinal_tract.mp4

  45. The End

  46. Questions?

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